This is an outdated version published on 2026-07-15. Read the most recent version.
Preprint / Version 6

Derivation of Rossiter Formula in Cavity Resonance

##article.authors##

DOI:

https://doi.org/10.31224/7028

Keywords:

cavity sound, cavity noise, cavity resonance, cavity resonance frequency, Rossiter fomula, Rossiter's equation, Green's function, vorticity, Powell's equation, Powell equation, whistle noise, whistle sound, whistling sound, whistling noise, Rossiter's formula, vortex

Abstract

Research on automobile whistling and suction sounds has been conducted in the past. For cavity resonance, a type of whistling sound, the cavity resonance frequency has been determined using Rossiter's empirical equation. Therefore, limiting the study to the one-dimensional case, Rossiter formula was derived by solving a system of three differential equations. In addition, equations for the stability conditions of cavity resonance and the sound pressure were derived. Finally, the results were verified through numerical calculations, and reasonable conclusions were obtained.

Downloads

Download data is not yet available.

Downloads

Posted

2026-05-10 — Updated on 2026-07-15

Versions

Version justification

We have added a new Section 3.7. Accordingly, we have revised Fig. 2, Fig. 3, Fig. 4, and Fig. 5 in Chapter 4, and also updated the explanatory text for Fig. 2. We sincerely apologize for the inconvenience of asking you to review the material again despite your busy schedule, and we would greatly appreciate it if you could take the time to look it over.